JP2866249B2 - Speed reducer series with internal meshing planetary gear structure - Google Patents

Abstract

An internally meshing planetary reduction gear series is disclosed. The user can freely select a type having a small angular backlash or a type without specifying the angular backlash according to the function necessary for the mating-machine (conveyor or the like). The above series include at least two types of a low backlash type having a small angular backlash, and a general type without specifying the angular backlash with the same speed change ratio, mating dimension, and transmission capacity in the same frame number. As a result, in variously assembling the conveyors in the physical distribution system, for example, the conveyors requiring only the movement, or the conveyors requiring the accurate stopping control and the like the assembly can be achieved only by suitably selecting such a reduction gear that only the angular backlash performance is different and the other factors are the same for the same conveyor. Therefore, it is possible to extremely improve the usage of the series. <IMAGE>

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a series of speed reducers employing an internally meshing planetary gear structure.

[0002]

2. Description of the Related Art Conventionally, a first shaft, an eccentric body rotated by rotation of the first shaft, a plurality of external gears mounted on the eccentric body via bearings and capable of eccentric rotation, and An internal gear internally meshed with the external gear via internal teeth formed of external pins; and a second shaft connected to the external gear via an internal roller for extracting only the rotation component of the external gear. A double-row internal meshing planetary gear structure having the following is widely known.

FIGS. 3 and 4 show a concrete conventional example of this structure.
Shown in In this conventional example, the first shaft is used as an input shaft, the second shaft is used as an output shaft, and the internal gear is fixed to apply the above structure to a "reduction gear".

The input shaft 1 has a predetermined phase difference (18 in this example).
0 °), the eccentric bodies 3a and 3b are fitted. The eccentric bodies 3a and 3b are respectively connected to the input shaft 1 (center O ₁ ).
Is eccentric by the amount of eccentricity e (center O ₂ ). Two external gears 5a, 5b are mounted on each eccentric body 3a, 3b in a double row via bearings 4a, 4b. The external gears 5a and 5b have inner roller holes 6a and 6b, respectively.
Are provided, and the inner pin 7 and the inner roller 8 are fitted therein.

The reason why the number of external gears is two (double row) is as follows.
This is mainly to increase transmission capacity, maintain strength, and maintain rotational balance.

[0006] External teeth 9 such as a trochoidal tooth shape and an arc tooth shape are provided on the outer periphery of the external gears 5a and 5b. The external teeth 9 are internally meshed with an internal gear 10 fixed to a casing 12. Specifically, the internal teeth of the internal gear 10 have a structure in which the outer pin 11 is loosely fitted in the outer pin hole 13 and held so as to be easily rotated. The inner pin 7 penetrating the external gears 5a, 5b is fixed or fitted to a casing 12 near the output shaft 2.

When the input shaft 1 makes one rotation, the eccentric bodies 3a, 3b
Rotates once. By one rotation of the eccentric bodies 3a and 3b,
The external gears 5a and 5b are oscillating about the input shaft 1. However, since the rotation of the external gears 5a and 5b is restricted by the internal gear 10, the external gears 5a and 5b Mostly only swinging is performed while touching.

For example, if the number of teeth of the external gears 5a and 5b is N and the number of teeth of the internal gear 10 is N + 1, the difference in the number of teeth is 1. Therefore, each time the input shaft 1 makes one rotation, the external gears 5a and 5b
It is shifted (rotated) by one tooth with respect to 0.
This means that one rotation of the input shaft 1 is -1 / of the external gears 5a, 5b.
It means that the rotation has been reduced to N rotations.

The rotation of the external gears 5a, 5b is absorbed by the gap between the inner roller holes 6a, 6b and the inner pin 7 (inner roller 8), and only the rotation component is reduced by the rotation of the inner pin 7.
To the output shaft 2. As a result, a speed reduction of -1 / N is achieved.

The above-described internal meshing planetary gear structure is currently applied to various reduction gears or speed-up gears. For example,
In the above structure, the first shaft is used as the input shaft, the second shaft is used as the output shaft, and the internal gear is fixed.
The first shaft is an input shaft, the internal gear is an output shaft, and the second shaft is
The reduction gear can also be configured by fixing the shaft. Further, in these structures, the input and output shafts are reversed so that a "speed-increasing gear" can be formed.

FIG. 5 shows an example in which the above structure is a unit type. (JP-A-62-2043). In this structure, the output shaft 2 is attached to a counterpart machine through a bolt hole 14, but the internal meshing planetary gear structure itself is the same as in FIGS. Therefore,
Members having the same functions as those in FIGS. 3 and 4 are denoted by the same reference numerals. The internal meshing planetary gear structure is also used in such types of speed reducers and speed-increasing gears.

In general, in a gear transmission mechanism, there is play between gears meshing with each other or means for attaching to a shaft. For this reason, even if the drive side reversely rotates when moving from normal rotation to reverse rotation, this does not immediately appear as reverse rotation on the driven side.

In this specification, for the sake of convenience, such play or play that occurs when shifting from normal rotation to reverse rotation is referred to as "angle backlash". That is, the angle backlash indicates how much the input shaft is reversed and the output shaft is reversed accordingly. In other words, this angle crash can be defined as an amount (angle) that can move one shaft (low-speed side or high-speed side) and move the other while the other shaft (low-speed side or high-speed side) is stopped. It does not indicate how much space there is.

In the transmission mechanism adopting the double-row internal meshing planetary gear structure as described above, since the play and play at the individual meshing portions interfere with each other, such angular backlash Is said to be relatively small.

However, even in such a double-row internal meshing planetary gear structure having a plurality of external gears, the transmission of force is originally performed by meshing the teeth. Although it is small when moving from reverse to reverse, angular backlash still occurs. The existence of such an angle backlash naturally lowers the accuracy when the transmission mechanism is used as a control device involving forward and reverse rotation, and also from the viewpoint of the pure mechanical durability of the transmission device itself. It is not preferable because an impact easily occurs.

Conventionally, in order to reduce the angle backlash, there has been adopted a method of increasing the processing accuracy of a part or selecting and adopting a part to be employed.

Also, Japanese Patent Application Laid-Open No. Sho 59-106744 (Japanese Patent Publication No.
In -3820) and the like, the eccentric body is divided in the axial direction corresponding to the external gear, and mounting means for mounting each eccentric body to the shaft is rotatable with respect to the shaft.
A method is disclosed in which one eccentric body removes angular backlash in the forward rotation direction while the other eccentric body removes angular backlash in the reverse rotation direction by "pressurizing" in opposite directions.

In Japanese Utility Model Publication No. 56-35552, the internal gear 10 and the external pin 11 are connected to the external gears 5a, 5b.
While the means for attaching each internal gear 10 to the casing 12 is rotatable with respect to the casing and is attached by "pressing" in opposite directions to each other. A method of removing angular backlash in the forward rotation direction by one internal gear and removing angular backlash in the reverse rotation direction by the other internal gear is disclosed.

Incidentally, the planetary gear structure of the internal meshing type as described above has a free reduction ratio only by changing the external gears 5a, 5b, the internal gear 10, the external pins 11, and the eccentric bodies 3a, 3b. Can be changed to

For this reason, the sub-series in which the fitting dimensions to the counterpart machine determined by the dimensions of the output shaft 2 and the casing 12 are divided into several sizes from small to large in accordance with the demands of the market. This subseries is hereinafter referred to as “frame number”), and it is possible to respond to various users by preparing a series of gear ratios in advance in the same frame number. And

Specifically, in the known motor, the reduction ratio is 1/6 to 1/119, and the combination of the motors is 0.1 kw to 13 kW.
Those with 2 kw and output torque of 0.35 kgm to 6000 kgm are prepared with a plurality of frame numbers.

[0022]

However, a series of reduction gears employing a conventionally known internally meshing planetary gear structure can sufficiently cope with the diversification of motors and methods of using the motors due to the recent rationalization of production systems. It has become impossible to do so.

As a specific example, in the field of a logistics system in which this type of speed reducer is frequently used, for example, it is efficient to operate only a necessary portion of a logistics system including a plurality of conveyors only when necessary. For this reason, the drive of each conveyor has become independent.

Further, as the function of the conveyor, it is sufficient to simply have a function of moving the conveyed object, and for example, control of the conveying speed and stopping at a fixed position in order to identify and arrange the conveyed object. It is becoming increasingly required that control is required (for convenience, the former is hereinafter referred to as a general-purpose conveyor,
The latter is called a control conveyor).

In general, a combination of a cage type induction motor and a gear reducer is used for a general-purpose conveyor, and a combination of a servomotor and a gear reducer is used for a control conveyor. A reduction gear combined with a servomotor has a small angle backlash, and a low-backlash type reduction gear suitable for stop control at a fixed position has been demanded.

This means that, when viewed from the side of the speed reducer used in such a conveyor or the like, the speed reducer merely constitutes a part of a partner machine (a conveyor or the like). Machines also constitute only part of the entire logistics system, so within the same logistics system,
There are cases where only functions for configuring a general-purpose conveyor are required in relation to the entire distribution system, and cases where functions for configuring a control conveyor are required.

On the other hand, in order to improve the maintainability or the productivity of the entire system, it is more convenient for a single system to use a smaller number of conveyors. It is advantageous if the general-purpose conveyor can be appropriately changed to a control conveyor simply by changing the device.

However, the above-mentioned demands cannot be satisfied with the conventionally known technologies and the series of reduction gears on the market.

That is, in the so-called "pressurizing method" disclosed in the above-mentioned JP-A-59-106744 and Japanese Utility Model Publication No. 56-35552, a plurality of external gears are provided in multiple rows to transmit the gears themselves. Although it is configured to increase the capacity and maintain the strength, etc., when actually rotating forward, power transmission is performed only by the external gear that substantially eliminates backlash in the forward rotation direction, and reverse rotation is performed. In some cases, power transmission is performed only by the external gear that has eliminated the angular backlash in the reverse direction, so that a new problem has arisen in that the advantages of the double row as described above must be considerably abandoned. Was.

That is, JP-A-59-106744 describes
Or the "pressurizing method" disclosed in Japanese Utility Model Publication No. 56-35552, the angle backlash is reduced, but the transmission torque capacity is reduced by half. It is necessary to prepare a speed reducer (the mounting size will also be large). Not only is there no interchangeability for replacement, but depending on the surrounding space environment, a speed reducer to achieve a general-purpose conveyor can be installed,
It has also very often occurred that a speed reducer for implementing the control conveyor cannot be mounted.

The present invention has been made in view of such conventional problems, and is intended for applications requiring speed control, fixed position stop control, and the like in accordance with required functions of a distribution system, for example, a conveyor. When using it, you can select a reducer for low backlash, and for other applications, provide a series configured so that you can select a low-cost reducer with the same mounting dimensions and transmission capacity as a result, resulting in a short delivery time The present invention has been made to solve the above problem by providing a user with a low-cost reduction gear, and enabling a user who has purchased once to easily change the usage in the whole system thereafter.

[0032]

SUMMARY OF THE INVENTION According to the present invention, there is provided a first shaft, an eccentric body provided on the first shaft, an external gear mounted on the eccentric body via a bearing, and an external gear. An internally meshing planetary gear structure including an internally geared internal gear and a second shaft connected to the external gear via means for transmitting only the rotation component of the external gear is adopted. In the series of gearboxes, the series is composed of a set of subseries such that the gear ratio differs from the low gear ratio to the high gear ratio, but the fitting dimensions for installation on the partner machine are the same, In this sub-series, while the gear ratio, fitting dimensions, and transmission capacity are the same, the low backlash type designed in consideration to reduce the angle backlash between the low-speed side and the high-speed side General purpose not considered in the design Type and, by that providing at least two different types of, it is obtained by solving the above problems.

Here, it is desirable that the angle backlash in the low backlash type is designed to be 0.1 degrees or less on the low speed side (output side in the case of a reduction gear) when the high speed side is fixed.

[0034]

[0035] Further, the first axis of the internally meshing planetary gear structure, what is hollow shaft type hole that allows fitting the rotary shaft of the mating machine (or hole) is formed is preferable.

[0036]

Before describing the specific operation, the gist of the point of view that led to the invention of the present invention will be described first.

That is, the inventor has conducted extensive research on the angular backlash (small size) of the speed reducer required by the control conveyor and the angle backlash of the conventionally known internally meshing planetary gear reducer. If the angle backlash of the reduction gear required for the control conveyor driven by the motor is 0.1 degrees or less on the output shaft side (low speed side) where the input shaft is fixed, it will be sufficient for most control conveyors. It was confirmed that sufficient functions could be achieved.

With this angular backlash, the input shaft 1 and the eccentric body 3 in the internally meshing planetary gear reducer are used.
, The gap between the eccentric body 3 and the bearing 4, the gap between the external gear 5, the external teeth 9 of the external gear 5, the gap between the external pin 11 and the external pin hole 13, and the gap between the external gear 5. Japanese Patent Application Laid-Open Publication No. H10-150550 discloses a method in which the gap between the inner roller hole 6, the inner roller 8, the inner pin 7, and the like is reduced by devising the dimensions (including tolerances) of each part during processing and selecting from the finished parts. Sho-59-106744 (Tokiho 3-3820) and Shoko 5
As shown in 6-35552, it has been confirmed that this accuracy can be realized without using a method of dividing the external gear and the internal gear in the axial direction and applying a pressurization in the normal rotation direction and the reverse rotation direction (pressurization method). . If this accuracy can be achieved without using the pressurization method, it is sufficiently possible to ensure the same speed ratio and transmission capacity with the same frame number (joining dimension).

Therefore, the frame number (attachment dimension), the gear ratio and the transmission capacity are adjusted to a known series, and the angle backlash is adjusted to, for example, 0.1 degrees or less on the low-speed shaft side. By preparing a new planetary gear reducer as a separate series in advance and allowing both types to be appropriately selected according to the required functions of the conveyor, it has been found that the usability as a series can be significantly improved. The present invention has been devised based on this finding.

That is, based on this finding, in the series according to the present invention, within the same frame number (within the same subseries)
In addition, at least two types are provided, a low-backlash type having a small angle backlash and a general-purpose type that does not have the same, while maintaining the same gear ratio, fitting dimensions, and transmission capacity.

Since the fitting dimensions for each type of mating machine are set to be the same, for example, large parts such as a casing and a flange part can be shared, and even if two or more types are provided, the number of common parts is extremely large. The cost can be kept low.

Also, the user only has a difference between the low backlash type and the general type, and the two have the gear ratio,
Since it has various specifications in common regarding the connection dimensions and transmission capacity, the speed is reduced according to the application, that is, whether it is used to realize a general-purpose conveyor or to realize a control conveyor. What is necessary is just to select a machine, and handling (usage method) etc. is very easy to understand.

Further, when the transmission capacity is the same, the outer diameter is also the same, so that a change in the use of the conveyor may cause a problem that the previously mounted reduction gear cannot be mounted. Is also gone.

[0044]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 shows an example in which an input shaft box for mounting a servomotor is attached to a low backlash type internally meshing planetary gear reducer to which the present invention is applied.

FIG. 2 shows an example in which the internal meshing type planetary gear reducer itself is common, and an input shaft box for mounting a servomotor having a flange dimension larger than that of FIG. 1 is attached thereto. .

In both examples, the input side structure has an input shaft 101 having a hollow hole 116 (216) to which a motor shaft 115 (215) of a servo motor (not shown) can be directly connected.
A so-called input shaft hollow shaft type provided with (201) is provided. Also, the casing 112 (21
The input shaft 101 (201) side of 2) has an end disc 121 (221) constituting a gear box of an in-meshed planetary gear reducer 122 (222), and an annular portion 120 extending therefrom.
(220) and the gear-side flange 119 (21
9) The input shaft box 117 (217) is provided by the motor mounting plate 118 (218) for mounting the flange portion of the servomotor.
The input shaft box 117 (217) can be prepared in advance according to the dimensions of the servomotor.

As a result, the structure is such that servomotors having different flange dimensions can be freely attached to the internal mesh type planetary gear reducers 122 (222) in a state where they are attached to the conveyor.

Reference numeral 123 (223) denotes the input shaft box 1
17 shows an inlay part between the gear-side flange 119 (219) and the motor mounting plate 118 (218).
02 (202) indicates an output shaft, and 130 (230) indicates an input shaft box fixing bolt.

Incidentally, the internal meshing type planetary gear reducer 122
The specific structure of (222) itself is described in FIGS.
Is adopted as it is. However, the design dimensions are set so that the gap between each member is smaller than that of the conventional general-purpose type, and the allowable tolerance of each dimension is also set to that of the general-purpose type so that it can be assembled well despite that. It is set smaller than that. As a result, it is manufactured so that the angle backlash after assembly is within 0.1 degree on the output shaft 112 side.

In the present invention, the low backlash type and the general-purpose type basically have the same gear ratio, fitting dimensions, and transmission capacity. Although difficult (cannot be achieved unless the number of external gears is doubled with the same fitting dimensions), as described above, if the angle backlash is 0.1 degree, it can be realized by other methods. It is. In addition to the technique of reducing the dimensional tolerance in design, a technique for improving various accuracy by a method other than the “pressurization method” disclosed in Japanese Patent Application No. 4-66631 (unknown), for example. It is, of course, free to appropriately use

That is, the present invention does not limit the method for realizing low backlash.

In any case, according to the present invention, a low backlash type series having the same fitting dimensions, speed ratio, and transmission capacity is provided in the same frame number, separately from the existing general-purpose series. Is the biggest feature.

Since the series of low backlash type internally meshing planetary gear units have small angular backlash, a control conveyor having good stop position accuracy and the like can be realized in combination with a servomotor, for example.

A general-purpose conveyor equipped with a conventional general-purpose type speed reducer can easily convert its drive unit to a servo motor and a low-backlash-type internally meshing planetary gear speed reducer according to this series. Therefore, the function can be easily improved from a general-purpose conveyor to a control conveyor as needed. Also, the reverse can be easily performed. That is,
The basic structure of the high-cost conveyor itself can freely change its function without any modification in the entire distribution system.

[0056]

As described above, according to the present invention, a low backlash type reducer is selected when speed control or fixed position stop control is required according to a required function such as a conveyor of a distribution system. If not, use a low-cost general-purpose reducer with the same gear ratio, fitting dimensions,
Since the transmission capacity can be arbitrarily selected, an excellent effect that the usability as a transmission in the entire distribution system can be remarkably improved can be obtained.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an embodiment of a low backlash type internally meshing planetary gear reducer according to the present invention.

FIG. 2 is a cross-sectional view showing an example having the same internally meshing planetary gear machine as FIG. 1 and capable of mounting a servomotor having a larger flange size.

FIG. 3 is a cross-sectional view showing an example of a speed reducer to which a conventional internal meshing planetary gear structure is applied.

FIG. 4 is a sectional view taken along the line IV-IV in FIG. 3;

FIG. 5 is a cross-sectional view showing an example of another reduction gear to which a conventional internal meshing planetary gear structure is applied.

[Explanation of symbols]

 1, 101, 201: input shaft, 2, 102, 202: output shaft, 3a, 3b: eccentric body, 4a, 4b: bearing, 5a, 5b: external gear, 7: internal pin, 10: internal gear, 112, 212: Casing, 115, 215: Motor shaft, 116, 216: Hollow hole, 117, 217: Input shaft box, 119, 219: Gear side flange, 122, 222: Internally meshing planetary gear reducer.

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Ryoji Sakurai 6-1, Asahi-cho, Obu-shi, Aichi Prefecture, Nagoya Works, Sumitomo Heavy Industries, Ltd. (56) References JP-A-56-73244 (JP, A) 55-126047 (JP, U) JP-A-3-28324 (JP, U) JP 51-1411 (JP, Y1) (58) Fields investigated (Int. Cl. ⁶ , DB name) F16H 1 / 32

Claims (3)

(57) [Claims] A first shaft; an eccentric body provided on the first shaft; an external gear mounted on the eccentric body via a bearing;
An internally meshing planet, comprising: an internal gear in which the external gear is internally meshed; and a second shaft connected to the external gear via means for transmitting only the rotation component of the external gear. In a series of gearboxes that employ a gear structure, the series is a subseries in which the gear ratio differs from the low gear ratio to the high gear ratio, but the fitting dimensions for installation on the mating machine are the same. In this sub-series, a low-backlash type designed in consideration to reduce the angle backlash between the low-speed side and the high-speed side while maintaining the same gear ratio, fitting dimensions, and transmission capacity, especially A speed reducer series adopting an internally meshing planetary gear structure, characterized in that at least two types are prepared: a general-purpose type that is not considered in design so as to be smaller. 2. The internal meshing planet according to claim 1, wherein the angle backlash in the low backlash type is designed to be 0.1 degrees or less on the low speed side when fixed on the high speed side. Series of gearboxes and gearboxes that employ a gear structure. 3. The claim 1-2, the first shaft of said internally meshing planetary gear structure, the internally meshing planetary gear structure characterized in that it is a hollow shaft type adopting Gearbox series.